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直接观察单个驱动蛋白分子沿微管移动。

Direct observation of single kinesin molecules moving along microtubules.

作者信息

Vale R D, Funatsu T, Pierce D W, Romberg L, Harada Y, Yanagida T

机构信息

Yanagida BioMotron Project, ERATO, JRDC, Senba-Higashi, Osaka, Japan.

出版信息

Nature. 1996 Apr 4;380(6573):451-3. doi: 10.1038/380451a0.

DOI:10.1038/380451a0
PMID:8602245
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2852185/
Abstract

Kinesin is a two-headed motor protein that powers organelle transport along microtubules. Many ATP molecules are hydrolysed by kinesin for each diffusional encounter with the microtubule. Here we report the development of a new assay in which the processive movement of individual fluorescently labelled kinesin molecules along a microtubule can be visualized directly; this observation is achieved by low-background total internal reflection fluorescence microscopy in the absence of attachment of the motor to a cargo (for example, an organelle or bead). The average distance travelled after a binding encounter with a microtubule is 600 nm, which reflects a approximately 1% probability of detachment per mechanical cycle. Surprisingly, processive movement could still be observed at salt concentrations as high as 0.3 M NaCl. Truncated kinesin molecules having only a single motor domain do not show detectable processive movement, which is consistent with a model in which kinesin's two force-generating heads operate by a hand-over-hand mechanism.

摘要

驱动蛋白是一种双头运动蛋白,它沿着微管推动细胞器运输。驱动蛋白在每次与微管发生扩散碰撞时会水解许多ATP分子。在此,我们报告了一种新检测方法的开发,通过该方法可以直接观察单个荧光标记的驱动蛋白分子沿微管的持续运动;这一观察结果是通过低背景全内反射荧光显微镜在驱动蛋白未附着于货物(如细胞器或珠子)的情况下实现的。与微管结合碰撞后移动的平均距离为600纳米,这反映出每个机械循环的脱离概率约为1%。令人惊讶的是,在高达0.3M NaCl的盐浓度下仍能观察到持续运动。仅具有单个运动结构域的截短驱动蛋白分子未表现出可检测到的持续运动,这与驱动蛋白的两个产生力的头部通过交替机制运作的模型一致。

相似文献

1
Direct observation of single kinesin molecules moving along microtubules.直接观察单个驱动蛋白分子沿微管移动。
Nature. 1996 Apr 4;380(6573):451-3. doi: 10.1038/380451a0.
2
Processivity of the motor protein kinesin requires two heads.驱动蛋白的持续性需要两个头部。
J Cell Biol. 1998 Mar 23;140(6):1395-405. doi: 10.1083/jcb.140.6.1395.
3
Processive movement of single kinesins on crowded microtubules visualized using quantum dots.利用量子点观察单个驱动蛋白在拥挤微管上的持续运动。
EMBO J. 2006 Jan 25;25(2):267-77. doi: 10.1038/sj.emboj.7600937. Epub 2006 Jan 12.
4
Role of the kinesin neck region in processive microtubule-based motility.驱动蛋白颈部区域在基于微管的持续运动中的作用。
J Cell Biol. 1998 Mar 23;140(6):1407-16. doi: 10.1083/jcb.140.6.1407.
5
Modulation of Kinesin's Load-Bearing Capacity by Force Geometry and the Microtubule Track.力几何形状和微管轨道对驱动蛋白承载能力的调节。
Biophys J. 2020 Jan 7;118(1):243-253. doi: 10.1016/j.bpj.2019.10.045. Epub 2019 Dec 12.
6
Kinesin's neck-linker determines its ability to navigate obstacles on the microtubule surface.驱动蛋白的颈部连接体决定了其在微管表面绕过障碍物的能力。
Biophys J. 2014 Apr 15;106(8):1691-700. doi: 10.1016/j.bpj.2014.02.034.
7
Motility of single one-headed kinesin molecules along microtubules.单个单头驱动蛋白分子沿微管的运动。
Biophys J. 2001 Nov;81(5):2838-50. doi: 10.1016/s0006-3495(01)75925-5.
8
Kinesin's processivity results from mechanical and chemical coordination between the ATP hydrolysis cycles of the two motor domains.驱动蛋白的持续运动性源于两个运动结构域的ATP水解循环之间的机械和化学协同作用。
Proc Natl Acad Sci U S A. 1999 Nov 9;96(23):13147-52. doi: 10.1073/pnas.96.23.13147.
9
A processive single-headed motor: kinesin superfamily protein KIF1A.一种持续性单头分子马达:驱动蛋白超家族蛋白KIF1A。
Science. 1999 Feb 19;283(5405):1152-7. doi: 10.1126/science.283.5405.1152.
10
Failure of a single-headed kinesin to track parallel to microtubule protofilaments.单头驱动蛋白无法沿微管原纤维平行移动。
Nature. 1995 Feb 23;373(6516):718-21. doi: 10.1038/373718a0.

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Development. 2025 May 1;152(9). doi: 10.1242/dev.204424. Epub 2025 May 8.
2
Total Internal Reflection Fluorescence (TIRF) Single-Molecule Assay to Analyze the Motility of Kinesin.全内反射荧光(TIRF)单分子分析以研究驱动蛋白的运动性
Bio Protoc. 2024 Dec 20;14(24):e5135. doi: 10.21769/BioProtoc.5135.
3
Biased movement of monomeric kinesin-3 KLP-6 explained by a symmetric Brownian ratchet model.对称布朗棘轮模型解释单体驱动蛋白-3 KLP-6的偏向运动。

本文引用的文献

1
Motor proteins. 1: kinesins.运动蛋白。1:驱动蛋白。
Protein Profile. 1994;1(10):1059-116.
2
Direction of microtubule movement is an intrinsic property of the motor domains of kinesin heavy chain and Drosophila ncd protein.微管运动方向是驱动蛋白重链和果蝇ncd蛋白的马达结构域的固有属性。
Proc Natl Acad Sci U S A. 1993 Jun 1;90(11):5209-13. doi: 10.1073/pnas.90.11.5209.
3
Expression, purification, and characterization of the Drosophila kinesin motor domain produced in Escherichia coli.在大肠杆菌中产生的果蝇驱动蛋白运动结构域的表达、纯化及特性分析
Biophys J. 2025 Jan 7;124(1):205-214. doi: 10.1016/j.bpj.2024.11.3312. Epub 2024 Nov 26.
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Molecular Motors in Myelination and Their Misregulation in Disease.髓鞘形成中的分子马达及其在疾病中的调控异常
Mol Neurobiol. 2025 Apr;62(4):4705-4723. doi: 10.1007/s12035-024-04576-9. Epub 2024 Oct 31.
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"Mitotic" kinesin-5 is a dynamic brake for axonal growth.“有丝分裂”驱动蛋白-5是轴突生长的动态制动器。
bioRxiv. 2024 Sep 15:2024.09.12.612721. doi: 10.1101/2024.09.12.612721.
6
Single molecule dynamics in a virtual cell combining a 3-dimensional matrix model with random walks.在一个虚拟细胞中进行单分子动力学研究,该虚拟细胞将 3 维矩阵模型与随机漫步相结合。
Sci Rep. 2024 Aug 28;14(1):20032. doi: 10.1038/s41598-024-70925-2.
7
The HSV-1 pUL37 protein promotes cell invasion by regulating the kinesin-1 motor.单纯疱疹病毒 1 型 pUL37 蛋白通过调节驱动蛋白 -1 来促进细胞侵袭。
Proc Natl Acad Sci U S A. 2024 May 7;121(19):e2401341121. doi: 10.1073/pnas.2401341121. Epub 2024 May 2.
8
Reconstitution of Neuronal Motor Traffic on Septin-Associated Microtubules.神经运动交通在微管相关 septin 上的重建。
Methods Mol Biol. 2024;2794:79-94. doi: 10.1007/978-1-0716-3810-1_8.
9
An optogenetic method for the controlled release of single molecules.一种光遗传学方法,用于控制单分子的释放。
Nat Methods. 2024 Apr;21(4):666-672. doi: 10.1038/s41592-024-02204-x. Epub 2024 Mar 8.
10
Noncanonical interaction with microtubules via the N-terminal nonmotor domain is critical for the functions of a bidirectional kinesin.通过 N 端非马达结构域与微管的非规范相互作用,对于双向驱动蛋白的功能至关重要。
Sci Adv. 2024 Feb 9;10(6):eadi1367. doi: 10.1126/sciadv.adi1367. Epub 2024 Feb 7.
Biochemistry. 1993 May 4;32(17):4677-84. doi: 10.1021/bi00068a028.
4
Direct observation of kinesin stepping by optical trapping interferometry.通过光镊干涉测量法直接观察驱动蛋白的步移。
Nature. 1993 Oct 21;365(6448):721-7. doi: 10.1038/365721a0.
5
Force-generating domain of myosin motor.肌球蛋白马达的力产生结构域。
Biochem Biophys Res Commun. 1993 Nov 15;196(3):1504-10. doi: 10.1006/bbrc.1993.2422.
6
Drosophila kinesin motor domain extending to amino acid position 392 is dimeric when expressed in Escherichia coli.当在大肠杆菌中表达时,延伸至氨基酸位置392的果蝇驱动蛋白运动结构域是二聚体。
J Biol Chem. 1994 Jun 10;269(23):16502-7.
7
Drosophila kinesin minimal motor domain expressed in Escherichia coli. Purification and kinetic characterization.在大肠杆菌中表达的果蝇驱动蛋白最小运动结构域。纯化及动力学特性分析。
J Biol Chem. 1994 Jun 10;269(23):16493-501.
8
Evidence for alternating head catalysis by kinesin during microtubule-stimulated ATP hydrolysis.驱动蛋白在微管刺激的ATP水解过程中交替头部催化的证据。
Proc Natl Acad Sci U S A. 1994 Jul 19;91(15):6865-9. doi: 10.1073/pnas.91.15.6865.
9
Tubulin GTP hydrolysis influences the structure, mechanical properties, and kinesin-driven transport of microtubules.微管蛋白的鸟苷三磷酸水解作用会影响微管的结构、力学性质以及驱动蛋白介导的微管运输。
J Biol Chem. 1994 Sep 23;269(38):23769-75.
10
Failure of a single-headed kinesin to track parallel to microtubule protofilaments.单头驱动蛋白无法沿微管原纤维平行移动。
Nature. 1995 Feb 23;373(6516):718-21. doi: 10.1038/373718a0.